c语言中cos函数的用法
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cos函数的输入值为弧度,也就是将cos函数后加上弧度,然后就可以得到想要的结果。我们需要把度化为弧度:假设度数为d,则对应的弧度为:d * pi / 180 参考技术A 同学,以下请仔细参详, 不是有意做长, 实在是都有用.
Trigonometry Functions (Sample)
The sample code below illustrates how to use trigonometry (sin, cos, tan, and so on) functions in Visual C++.
Required Header:
<valarray>
Prototype:
// acos
template<class T>
inline valarray<T> acos(const valarray<T>& x);
// asin
template<class T>
inline valarray<T> asin(const valarray<T>& x);
// atan
template<class T>
inline valarray<T> atan(const valarray<T>& x);
// atan2
template<class T>
inline valarray<T> atan2(const valarray<T>& x, const valarray<T>& y);
template<class T>
inline valarray<T> atan2(const valarray<T> x, const T& y);
template<class T>
inline valarray<T> atan2(const T& x, const valarray<T>& y);
// cos
template<class T>
inline valarray<T> cos(const valarray<T>& x);
// cosh
template<class T>
inline valarray<T> cosh(const valarray<T>& x);
// sin
template<class T>
inline valarray<T> sin(const valarray<T>& x);
// sinh
template<class T>
inline valarray<T> sinh(const valarray<T>& x);
// tan
template<class T>
inline valarray<T> tan(const valarray<T>& x);
// tanh
template<class T>
inline valarray<T> tanh(const valarray<T>& x);
Note: The class/parameter names in the prototype do not match the version in the header file. Some have been modified to improve readability.
Description:
This article illustrates the use of STL trigonometry functions through sample code.
Sample Code:
//////////////////////////////////////////////////////////////////////
//
// Compile options needed: /GX
//
// main.cpp : Illustrates the use of STL trigonometry functions.
//
// Functions:
//
// acos, asin, atan, atan2, cos, cosh, sin, sinh, tan, tanh
//////////////////////////////////////////////////////////////////////
#include <iostream> // for i/o functions
#include <valarray> // for valarray
#include <cmath> // for trigonometry functions
using namespace std ;
#define ARRAY_SIZE 3 // array size
void main()
// Initialize val_array to values -1, 0 and 1.
valarray<double> val_array(ARRAY_SIZE);
for (int i = 0; i < ARRAY_SIZE; i++)
val_array[i] = i - 1;
// Display the size of val_array.
cout << "Size of val_array = " << val_array.size() << endl;
// Display the values of val_array before calling any trigonometry
// functions.
cout << "The values in val_array:" << endl;
for (i = 0; i < ARRAY_SIZE; i++)
cout << val_array[i] << " ";
cout << endl << endl;
// Initialize rev_valarray that is the reverse of val_array.
valarray<double> rev_valarray(ARRAY_SIZE);
for (i = 0; i < ARRAY_SIZE; i++)
rev_valarray[i] = val_array[ARRAY_SIZE - i - 1];
// Display the size of rev_valarray.
cout << "Size of rev_valarray = " << rev_valarray.size() << endl;
// Display the values of rev_valarray.
cout << "The values in rev_valarray:" << endl;
for (i = 0; i < ARRAY_SIZE; i++)
cout << rev_valarray[i] << " ";
cout << endl << endl;
// rvalue_array to hold the return value from calling the trigonometry
// functions.
valarray<double> rvalue_array;
// ----------------------------------------------------------------
// acos() - display the result of rvalue_array
// ----------------------------------------------------------------
rvalue_array = acos(val_array);
cout << "The result after calling acos():" << endl;
for (i = 0; i < ARRAY_SIZE; i++)
cout << rvalue_array[i] << " ";
cout << endl << endl;
// ----------------------------------------------------------------
// asin() - display the result of rvalue_array
// ----------------------------------------------------------------
rvalue_array = asin(val_array);
cout << "The result after calling asin():" << endl;
for (i = 0; i < ARRAY_SIZE; i++)
cout << rvalue_array[i] << " ";
cout << endl << endl;
// ----------------------------------------------------------------
// atan() - display the result of rvalue_array
// ----------------------------------------------------------------
rvalue_array = atan(val_array);
cout << "The result after calling atan():" << endl;
for (i = 0; i < ARRAY_SIZE; i++)
cout << rvalue_array[i] << " ";
cout << endl << endl;
// ----------------------------------------------------------------
// atan2() - display the result of rvalue_array
// ----------------------------------------------------------------
// This template function returns an object of class valarray<T>,
// each of whose elements at I is the arctangent of x[I] / y[I].
rvalue_array = atan2(val_array, rev_valarray);
cout << "The result after calling atan2(val_array, rev_valarray):"
<< endl;
for (i = 0; i < ARRAY_SIZE; i++)
cout << rvalue_array[i] << " ";
cout << endl << endl;
// This template function stores in element I the arctangent of
// x[I] / y.
rvalue_array = atan2(val_array, 3.1416);
cout << "The result after calling atan2(val_array, 3.1416):" << endl;
for (i = 0; i < ARRAY_SIZE; i++)
cout << rvalue_array[i] << " ";
cout << endl << endl;
// This template function stores in element I the arctangent of
// x / y[I].
rvalue_array = atan2(3.1416, val_array);
cout << "The result after calling atan2(3.1416, val_array):" << endl;
for (i = 0; i < ARRAY_SIZE; i++)
cout << rvalue_array[i] << " ";
cout << endl << endl;
// ----------------------------------------------------------------
// cos() - display the result of rvalue_array
// ----------------------------------------------------------------
rvalue_array = cos(val_array);
cout << "The result after calling cos():" << endl;
for (i = 0; i < ARRAY_SIZE; i++)
cout << rvalue_array[i] << " ";
cout << endl << endl;
// ----------------------------------------------------------------
// cosh() - display the result of rvalue_array
// ----------------------------------------------------------------
rvalue_array = cosh(val_array);
cout << "The result after calling cosh():" << endl;
for (i = 0; i < ARRAY_SIZE; i++)
cout << rvalue_array[i] << " ";
cout << endl << endl;
// ----------------------------------------------------------------
// sin() - display the result of val_array
// ----------------------------------------------------------------
rvalue_array = sin(val_array);
cout << "The result after calling sin():" << endl;
for (i = 0; i < ARRAY_SIZE; i++)
cout << rvalue_array[i] << " ";
cout << endl << endl;
// ----------------------------------------------------------------
// sinh() - display the result of val_array
// ----------------------------------------------------------------
rvalue_array = sinh(val_array);
cout << "The result after calling sinh():" << endl;
for (i = 0; i < ARRAY_SIZE; i++)
cout << rvalue_array[i] << " ";
cout << endl << endl;
// ----------------------------------------------------------------
// tan() - display the result of val_array
// ----------------------------------------------------------------
rvalue_array = tan(val_array);
cout << "The result after calling tan():" << endl;
for (i = 0; i < ARRAY_SIZE; i++)
cout << rvalue_array[i] << " ";
cout << endl << endl;
// ----------------------------------------------------------------
// tanh() - display the result of val_array
// ----------------------------------------------------------------
rvalue_array = tanh(val_array);
cout << "The result after calling tanh():" << endl;
for (i = 0; i < ARRAY_SIZE; i++)
cout << rvalue_array[i] << " ";
cout << endl << endl;
Program Output is:
Size of val_array = 3
The values in val_array:
-1 0 1
Size of rev_valarray = 3
The values in rev_valarray:
1 0 -1
The result after calling acos():
3.14159 1.5708 0
The result after calling asin():
-1.5708 0 1.5708
The result after calling atan():
-0.785398 0 0.785398
The result after calling atan2(val_array, rev_valarray):
-0.785398 0 2.35619
The result after calling atan2(val_array, 3.1416):
-0.308168 0 0.308168
The result after calling atan2(3.1416, val_array):
1.87896 1.5708 1.26263
The result after calling cos():
0.540302 1 0.540302
The result after calling cosh():
1.54308 1 1.54308
The result after calling sin():
-0.841471 0 0.841471
The result after calling sinh():
-1.1752 0 1.1752
The result after calling tan():
-1.55741 0 1.55741
The result after calling tanh():
-0.761594 0 0.761594 参考技术B 是用弧度做单位的本回答被提问者采纳
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